Biomechanics of Anthropomorphic Systems
Title:
Biomechanics of Anthropomorphic Systems
ISBN:
9783319938707
Edition:
1st ed. 2019.
Publication Information New:
Cham : Springer International Publishing : Imprint: Springer, 2019.
Physical Description:
VIII, 310 p. 100 illus., 67 illus. in color. online resource.
Series:
Springer Tracts in Advanced Robotics, 124
Contents:
Foreword -- Should anthropomorphic systems be"redundant"? -- From Biomechanics to Robotics -- Multibody optimisations: from kinematic constraints to knee contact forces and ligament forces -- Creating personalized dynamic models -- Optimality and modularity in human movement: from optimal control to muscle synergies -- Human Movements: Synergies, Stability, and Agility -- Motor compositionality and timing: combined geometrical and optimization approaches -- Review of Anthropomorphic Head Stabilisation and Verticality Estimation in Robots -- The Physics and Control of Balancing on a Point in the Plane -- Design and Control of a passive noise rejecting Variable Stiffness Actuator -- Bipedal locomotion: a continuous tradeoff between robustness and energy-efficiency -- An overview of humanoid robots technologies.
Abstract:
Mechanical laws of motion were applied very early for better understanding anthropomorphic action as suggested in advance by Newton «For from hence are easily deduced the forces of machines, which are compounded of wheels, pullies, levers, cords, and weights, ascending directly or obliquely, and other mechanical powers; as also the force of the tendons to move the bones of animals». In the 19th century E.J. Marey and E. Muybridge introduced chronophotography to scientifically investigate animal and human movements. They opened the field of motion analysis by being the first scientists to correlate ground reaction forces with kinetics. Despite of the apparent simplicity of a given skilled movement, the organization of the underlying neuro-musculo-skeletal system remains unknown. A reason is the redundancy of the motor system: a given action can be realized by different muscle and joint activity patterns, and the same underlying activity may give rise to several movements. After the pioneering work of N. Bernstein in the 60's on the existence of motor synergies, numerous researchers «walking on the border» of their disciplines tend to discover laws and principles underlying the human motions and how the brain reduces the redundancy of the system. These synergies represent the fundamental building blocks composing complex movements. In robotics, researchers face the same redundancy and complexity challenges as the researchers in life sciences. This book gathers works of roboticists and researchers in biomechanics in order to promote an interdisciplinary research on anthropomorphic systems at large and on humanoid robotics in particular.
Added Corporate Author:
Language:
English